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GeNMR
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Torsion angles from chemical shifts:
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Secondary structure from chemical shifts:
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Flexibility from chemical shifts:
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From structure:
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Disordered proteins:
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Format conversion & validation:
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Protein disorder:
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Default Structure determination of membrane proteins by NMR spectroscopy.

Structure determination of membrane proteins by NMR spectroscopy.

Related Articles Structure determination of membrane proteins by NMR spectroscopy.

Biochem Cell Biol. 2002;80(5):597-604

Authors: Opella SJ, Nevzorov A, Mesleb MF, Marassi FM

Current strategies for determining the structures of membrane proteins in lipid environments by NMR spectroscopy rely on the anisotropy of nuclear spin interactions, which are experimentally accessible through experiments performed on weakly and completely aligned samples. Importantly, the anisotropy of nuclear spin interactions results in a mapping of structure to the resonance frequencies and splittings observed in NMR spectra. Distinctive wheel-like patterns are observed in two-dimensional 1H-15N heteronuclear dipolar/15N chemical shift PISEMA (polarization inversion spin-exchange at the magic angle) spectra of helical membrane proteins in highly aligned lipid bilayer samples. One-dimensional dipolar waves are an extension of two-dimensional PISA (polarity index slant angle) wheels that map protein structures in NMR spectra of both weakly and completely aligned samples. Dipolar waves describe the periodic wave-like variations of the magnitudes of the heteronuclear dipolar couplings as a function of residue number in the absence of chemical shift effects. Since weakly aligned samples of proteins display these same effects, primarily as residual dipolar couplings, in solution NMR spectra, this represents a convergence of solid-state and solution NMR approaches to structure determination.

PMID: 12440700 [PubMed - indexed for MEDLINE]



Source: PubMed
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